quickfield simulation reportquickfield simulation report analysis of heat transfer in the capacity...
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QuickField simulation report
Analysis of heat transfer in the capacity kiln
Temperature distribution in the capacity kiln calculation
This automatically generated document consists of severalsections, which specify the problem setup and finite elementanalysis simulation results. Navigation links in the top of eachpage lead to corresponding sections of this report.
Problem description and QuickField simulation files:https://quickfield.com/advanced/capacity_kiln.htm
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Problem info Problem type: Steady-State Heat Transfer
Geometry model class: Plane-Parallel
Problem database file names:
Problem: KILN1.PBM
Geometry: Kiln1.mod
Material Data: Kiln1.dht
Material Data 2 (library): none
Electric circuit: none
Results taken from other problems:
none
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Geometry model
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Table 1. Geometry model statistics
With Label Total
Blocks 4 5
Edges 2 20
Vertices 0 20
Number of nodes: 1122.
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Labelled objects There are following labelled objects in the geometry model
(Material Data file could contain more labels, but only
those labels that assigned to geometric objects are listed)
Blocks:
air
thermalite
chamotte porous
chamotte
Edges:
l1
l2
Vertices:
Detailed information about each label is listed below.
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Labelled objects: block "air" There are (2) objects with this label
Thermal conductivity: lambda_x=10 [W/(K*m)],
lambda_y=10 [W/(K*m)]
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Labelled objects: block "thermalite" There are (1) objects with this label
Thermal conductivity: lambda_x=0.065 [W/(K*m)],
lambda_y=0.065 [W/(K*m)]
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Labelled objects: block "chamotte porous" There are (1) objects with this label
Thermal conductivity: lambda_x=0.1025 [W/(K*m)],
lambda_y=0.1025 [W/(K*m)]
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Labelled objects: block "chamotte" There are (1) objects with this label
Thermal conductivity: lambda_x=1 [W/(K*m)],
lambda_y=1 [W/(K*m)]
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Labelled objects: edge "l1" There are (4) objects with this label
Temperature: T=826.8 [K]
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Labelled objects: edge "l2" There are (4) objects with this label
Temperature: T=-253.15 [K]
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Results Field lines
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Results Color map of Heat flux |F| [W/m2]
1750
1575
1400
1225
1050
875
700
525
350
175
0
Problem info Geometry model Labelled Objects Results Nonlinear dependencies
Nonlinear dependencies
No non-linear dependencies are used in this problem data